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Rotating Electric Machinery And Transformer Technology Pdf

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Comparison of three phase transformer with bank of three single phase transformers. Arrangement of Core and windings in transformer, use of tap changer.

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In electrical engineering , electric machine is a general term for machines using electromagnetic forces , such as electric motors , electric generators , and others.

They are electromechanical energy converters: an electric motor converts electricity to mechanical power while an electric generator converts mechanical power to electricity. The moving parts in a machine can be rotating rotating machines or linear linear machines. Besides motors and generators, a third category often included is transformers , which although they do not have any moving parts are also energy converters, changing the voltage level of an alternating current.

Electric machines were developed beginning in the mid 19th century and since that time have been a ubiquitous component of the infrastructure.

Developing more efficient electric machine technology is crucial to any global conservation, green energy , or alternative energy strategy. An electric generator is a device that converts mechanical energy to electrical energy.

A generator forces electrons to flow through an external electrical circuit. It is somewhat analogous to a water pump, which creates a flow of water but does not create the water inside. The source of mechanical energy, the prime mover , may be a reciprocating or turbine steam engine , water falling through a turbine or waterwheel , an internal combustion engine , a wind turbine , a hand crank , compressed air or any other source of mechanical energy.

The two main parts of an electrical machine can be described in either mechanical or electrical terms. In mechanical terms, the rotor is the rotating part, and the stator is the stationary part of an electrical machine. In electrical terms, the armature is the power-producing component and the field is the magnetic field component of an electrical machine.

The armature can be on either the rotor or the stator. The magnetic field can be provided by either electromagnets or permanent magnets mounted on either the rotor or the stator. Generators are classified into two types, AC generators and DC generators. An AC generator converts mechanical energy into alternating current electricity. Because power transferred into the field circuit is much less than power transferred into the armature circuit, AC generators nearly always have the field winding on the rotor and the armature winding on the stator.

A DC generator is a machine that converts mechanical energy into Direct Current electrical energy. A DC generator generally has a commutator with split ring to produce a direct current instead of an alternating current.

An electric motor converts electrical energy into mechanical energy. The reverse process of electrical generators, most electric motors operate through interacting magnetic fields and current-carrying conductors to generate rotational force.

Motors and generators have many similarities and many types of electric motors can be run as generators, and vice versa. Electric motors are found in applications as diverse as industrial fans, blowers and pumps, machine tools, household appliances, power tools , and disk drives. They may be powered by direct current or by alternating current which leads to the two main classifications: AC motors and DC motors.

An AC motor converts alternating current into mechanical energy. It commonly consists of two basic parts, an outside stationary stator having coils supplied with alternating current to produce a rotating magnetic field, and an inside rotor attached to the output shaft that is given a torque by the rotating field.

The two main types of AC motors are distinguished by the type of rotor used. The brushed DC electric motor generates torque directly from DC power supplied to the motor by using internal commutation, stationary permanent magnets, and rotating electrical magnets.

Brushes and springs carry the electric current from the commutator to the spinning wire windings of the rotor inside the motor.

Brushless DC motors use a rotating permanent magnet in the rotor, and stationary electrical magnets on the motor housing. A motor controller converts DC to AC. This design is simpler than that of brushed motors because it eliminates the complication of transferring power from outside the motor to the spinning rotor.

An example of a brushless, synchronous DC motor is a stepper motor which can divide a full rotation into a large number of steps. Other electromagnetic machines include the Amplidyne , Synchro , Metadyne , Eddy current clutch , Eddy current brake , Eddy current dynamometer , Hysteresis dynamometer , Rotary converter , and Ward Leonard set.

A rotary converter is a combination of machines that act as a mechanical rectifier, inverter or frequency converter. The Ward Leonard set is a combination of machines used to provide speed control. Other machine combinations include the Kraemer and Scherbius systems. A transformer is a static device that converts alternating current from one voltage level to another level higher or lower , or to the same level, without changing the frequency.

A transformer transfers electrical energy from one circuit to another through inductively coupled conductors—the transformer's coils. A varying electric current in the first or primary winding creates a varying magnetic flux in the transformer's core and thus a varying magnetic field through the secondary winding.

This varying magnetic field induces a varying electromotive force emf or " voltage " in the secondary winding. This effect is called mutual induction. Electromagnetic-rotor machines are machines having some kind of electric current in the rotor which creates a magnetic field which interacts with the stator windings. The rotor current can be the internal current in a permanent magnet PM machine , a current supplied to the rotor through brushes Brushed machine or a current set up in closed rotor windings by a varying magnetic field Induction machine.

PM machines have permanent magnets in the rotor which set up a magnetic field. The magnetomotive force in a PM caused by orbiting electrons with aligned spin is generally much higher than what is possible in a copper coil. The copper coil can, however, be filled with a ferromagnetic material, which gives the coil much lower magnetic reluctance.

This may change with introduction of superconductors in rotor. Since the permanent magnets in a PM machine already introduce considerable magnetic reluctance, then the reluctance in the air gap and coils are less important. This gives considerable freedom when designing PM machines. It is usually possible to overload electric machines for a short time until the current in the coils heats parts of the machine to a temperature which cause damage.

PM machines can in less degree be subjected to such overload because too high current in the coils can create a magnetic field strong enough to demagnetise the magnets. Brushed machines are machines where the rotor coil is supplied with current through brushes in much the same way as current is supplied to the car in an electric slot car track.

More durable brushes can be made of graphite or liquid metal. It is even possible to eliminate the brushes in a "brushed machine" by using a part of rotor and stator as a transformer which transfer current without creating torque.

Brushes must not be confused with a commutator. The difference is that the brushes only transfer electric current to a moving rotor while a commutator also provide switching of the current direction. There is iron usually laminated steel cores made of sheet metal between the rotor coils and teeth of iron between the stator coils in addition to black iron behind the stator coils. The gap between rotor and stator is also made as small as possible.

All this is done to minimize magnetic reluctance of the magnetic circuit which the magnetic field created by the rotor coils travels through, something which is important for optimizing these machines.

Large brushed machines which are run with DC to the stator windings at synchronous speed are the most common generator in power plants , because they also supply reactive power to the grid, because they can be started by the turbine and because the machine in this system can generate power at constant speed without a controller. This type of machine is often referred to in the literature as a synchronous machine.

This machine can also be run by connecting the stator coils to the grid, and supplying the rotor coils with AC from an inverter. The advantage is that it is possible to control rotating speed of the machine with a fractionally rated inverter. When run this way the machine is known as a brushed double feed "induction" machine.

Induction machines have short circuited rotor coils where a current is set up and maintained by induction. This requires that the rotor rotates at other than synchronous speed, so that the rotor coils are subjected to a varying magnetic field created by the stator coils.

An induction machine is an asynchronous machine. Induction eliminates the need for brushes which is usually a weak part in an electric machine. It also allows designs which make it very easy to manufacture the rotor.

A metal cylinder will work as rotor, but to improve efficiency a "squirrel cage" rotor or a rotor with closed windings is usually used. The speed of asynchronous induction machines will decrease with increased load because a larger speed difference between stator and rotor is necessary to set up sufficient rotor current and rotor magnetic field.

Asynchronous induction machines can be made so they start and run without any means of control if connected to an AC grid, but the starting torque is low. A special case would be an induction machine with superconductors in the rotor. The current in the superconductors will be set up by induction, but the rotor will run at synchronous speed because there will be no need for a speed difference between the magnetic field in stator and speed of rotor to maintain the rotor current.

Another special case would be the brushless double fed induction machine , which has a double set of coils in the stator. Since it has two moving magnetic fields in the stator, it gives no meaning to talk about synchronous or asynchronous speed. Reluctance machines have no windings on the rotor, only a ferromagnetic material shaped so that "electromagnets" in stator can "grab" the teeth in rotor and advance it a little.

The electromagnets are then turned off, while another set of electromagnets is turned on to move rotor further. Another name is step motor, and it is suited for low speed and accurate position control. Reluctance machines can be supplied with permanent magnets in the stator to improve performance. When the current is positive the magnet and the current cooperate to create a stronger magnetic field which will improve the reluctance machine's maximum torque without increasing the currents maximum absolute value.

In electrostatic machines , torque is created by attraction or repulsion of electric charge in rotor and stator.

Electrostatic generators generate electricity by building up electric charge. Early types were friction machines, later ones were influence machines that worked by electrostatic induction. The Van de Graaff generator is an electrostatic generator still used in research today.

Homopolar machines are true DC machines where current is supplied to a spinning wheel through brushes. The wheel is inserted in a magnetic field, and torque is created as the current travels from the edge to the centre of the wheel through the magnetic field.

For optimized or practical operation of electric machines, today's electric machine systems are complemented with electronic control. From Wikipedia, the free encyclopedia. Main article: Electric generator. Main article: Electric motor. Main article: AC motor. Main article: DC motor. Main article: Transformer. Handbook of Transformer Design and Applications, Chap.

Categories : Machines Electrical engineering Electric motors Electromechanical engineering. Hidden categories: Wikipedia articles incorporating a citation from the Encyclopaedia Britannica with Wikisource reference.

Electrical Transformers and Rotating Machines

Electric , Machinery , Transformers , And transformers. Link to this page:. Theory of AC Machinery Electric , Machinery. Safety Study Guide 2. The steam produced is used for:.

Skip to Main Content. A not-for-profit organization, IEEE is the world's largest technical professional organization dedicated to advancing technology for the benefit of humanity. Use of this web site signifies your agreement to the terms and conditions. Very high voltage, ultra-high power density, rotating electrical machines as compact pulsed power supplies Abstract: Summary form only given, as follows. This paper presents several novel technological concepts for compact, high-voltage, pulsed power supplies for near-term and future military systems, as well as for commercial applications developed at the Center for Electromechanics at The University of Texas at Austin. The choice for electrical rotating converters arises from the gap of several orders in magnitude between the levels of energy density stored kinetically and the energy density stored in magnetic, or at even lower levels, in the electric field. Such compact power supplies represent, by their designs, hybrid systems comprising two or three stages in which the voltage is amplified.


Rotating Electric Machinery and Transformer Technology (4th Edition) [​Richardson, Donald V., Caisse Jr., Arthur J.] on drugtruthaustralia.org *FREE* shipping on.


Electric motor

An electric motor is an electrical machine that converts electrical energy into mechanical energy. Most electric motors operate through the interaction between the motor's magnetic field and electric current in a wire winding to generate force in the form of torque applied on the motor's shaft. Electric motors can be powered by direct current DC sources, such as from batteries, or rectifiers , or by alternating current AC sources, such as a power grid, inverters or electrical generators. An electric generator is mechanically identical to an electric motor, but operates with a reversed flow of power, converting mechanical energy into electrical energy. Electric motors may be classified by considerations such as power source type, internal construction, application and type of motion output.

Skip to search form Skip to main content You are currently offline. Some features of the site may not work correctly. Richardson and Arthur J. Richardson , Arthur J.

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In electrical engineering , electric machine is a general term for machines using electromagnetic forces , such as electric motors , electric generators , and others.

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Preface Electric Machinery and Transformers has been written for students at the As you are aware, other circuit analysis techniques, such as the node-voltage such devices as rotating machines, transformers, electromagnets, and relays.

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